A Nógrád Megyei Múzeumok Évkönyve XVI. (1990)
Tanulmányok - Hír János: A Mátra- és a Bükk-hegység fejlődéstörténeti vázlata a szarmata korszaktól a negyedidőszakig
4. swamp 5. deep lake 6. laggoon 7.reef 8. free see fig. 4. The surface of the Western Mátra (after the sensé of A. SZÉKELY 1964) IL Lower Pannonian „peneplain" e. erosional levels of the Kövicses Creek fig. 5. Watershed System of the Mátra Mountais (after GY. GÁBRIS in A. SZÉKELY 1985) 1. main watershed 2. watershed 3. volcanic structures 4. cupola K. —S.: main summits fig. 6.—7. The supposed arches and slip of the Mátra — caldera (after Z. В ALLA —L. HAVAS 1982) fig. 8. Spreeding of the Pannonian deposits in the Carpathian Basin (Á. JÁMBOR et al 1987) fig. 9. The European paleogeographical surroundings of the Pannon Lake (E. VELITZELOS— HJ. GREGOR 1987) fig. 10. General lithostratigraphic and magnetostratigraphic séquence of the Visonta open-cast mine. (M. KRETZOI et al 1982). fig. 11. Pediment and alluvial fan in the Mátra foothills (M. KRETZOI—M. PÉCSI 1982) 1. Badenien andésite 2. Upper Pannonian formation with lignite beds 3. Upper Pannonian sand 4. coarser andésite boulder and gravel 5. Plio-Pleisztocene alluvial fan P. piedmont surface P. rock pediment Hj supposed Sarmatian pediment fig. 12. Characteristic heights of and corrélation between the terraces of the Danube and Sajó; ÁSZ. flood plains SPK. level of Sarmatian-Pannonian gravels (not a terrace) fig. 13. Geochronological subdivision of the Quaternary and the main climatic changes (DE MULDER E. F. J. et al 1983) 284
